/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package org.apache.lucene.search;

import java.io.IOException;
import java.nio.charset.StandardCharsets;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.BitSet;
import java.util.Collection;
import java.util.Comparator;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.NoSuchElementException;
import java.util.Set;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.atomic.AtomicBoolean;
import org.apache.lucene.codecs.Codec;
import org.apache.lucene.codecs.FilterCodec;
import org.apache.lucene.codecs.PointsFormat;
import org.apache.lucene.codecs.PointsReader;
import org.apache.lucene.codecs.PointsWriter;
import org.apache.lucene.codecs.lucene90.Lucene90PointsReader;
import org.apache.lucene.codecs.lucene90.Lucene90PointsWriter;
import org.apache.lucene.document.BinaryPoint;
import org.apache.lucene.document.Document;
import org.apache.lucene.document.DoublePoint;
import org.apache.lucene.document.Field;
import org.apache.lucene.document.FloatPoint;
import org.apache.lucene.document.IntPoint;
import org.apache.lucene.document.LongPoint;
import org.apache.lucene.document.NumericDocValuesField;
import org.apache.lucene.document.SortedNumericDocValuesField;
import org.apache.lucene.document.StringField;
import org.apache.lucene.index.DirectoryReader;
import org.apache.lucene.index.IndexReader;
import org.apache.lucene.index.IndexWriter;
import org.apache.lucene.index.IndexWriterConfig;
import org.apache.lucene.index.MultiDocValues;
import org.apache.lucene.index.NumericDocValues;
import org.apache.lucene.index.PointValues;
import org.apache.lucene.index.SegmentReadState;
import org.apache.lucene.index.SegmentWriteState;
import org.apache.lucene.index.Term;
import org.apache.lucene.store.Directory;
import org.apache.lucene.tests.analysis.MockAnalyzer;
import org.apache.lucene.tests.index.RandomIndexWriter;
import org.apache.lucene.tests.search.FixedBitSetCollector;
import org.apache.lucene.tests.util.LuceneTestCase;
import org.apache.lucene.tests.util.TestUtil;
import org.apache.lucene.util.BytesRef;
import org.apache.lucene.util.FixedBitSet;
import org.apache.lucene.util.IOUtils;
import org.apache.lucene.util.NumericUtils;
import org.apache.lucene.util.bkd.BKDConfig;
import org.junit.BeforeClass;

@LuceneTestCase.SuppressCodecs("SimpleText")
public class TestPointQueries extends LuceneTestCase {

  // Controls what range of values we randomly generate, so we sometimes test narrow ranges:
  static long valueMid;
  static int valueRange;

  @BeforeClass
  public static void beforeClass() {
    if (random().nextBoolean()) {
      valueMid = random().nextLong();
      if (random().nextBoolean()) {
        // Wide range
        valueRange = TestUtil.nextInt(random(), 1, Integer.MAX_VALUE);
      } else {
        // Narrow range
        valueRange = TestUtil.nextInt(random(), 1, 100000);
      }
      if (VERBOSE) {
        System.out.println("TEST: will generate long values " + valueMid + " +/- " + valueRange);
      }
    } else {
      // All longs
      valueRange = 0;
      if (VERBOSE) {
        System.out.println("TEST: will generate all long values");
      }
    }
  }

  public void testBasicInts() throws Exception {
    Directory dir = newDirectory();
    IndexWriter w = new IndexWriter(dir, new IndexWriterConfig(new MockAnalyzer(random())));

    Document doc = new Document();
    doc.add(new IntPoint("point", -7));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new IntPoint("point", 0));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new IntPoint("point", 3));
    w.addDocument(doc);

    DirectoryReader r = DirectoryReader.open(w);
    IndexSearcher s = new IndexSearcher(r);
    assertEquals(2, s.count(IntPoint.newRangeQuery("point", -8, 1)));
    assertEquals(3, s.count(IntPoint.newRangeQuery("point", -7, 3)));
    assertEquals(1, s.count(IntPoint.newExactQuery("point", -7)));
    assertEquals(0, s.count(IntPoint.newExactQuery("point", -6)));
    w.close();
    r.close();
    dir.close();
  }

  public void testBasicFloats() throws Exception {
    Directory dir = newDirectory();
    IndexWriter w = new IndexWriter(dir, new IndexWriterConfig(new MockAnalyzer(random())));

    Document doc = new Document();
    doc.add(new FloatPoint("point", -7.0f));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new FloatPoint("point", 0.0f));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new FloatPoint("point", 3.0f));
    w.addDocument(doc);

    DirectoryReader r = DirectoryReader.open(w);
    IndexSearcher s = new IndexSearcher(r);
    assertEquals(2, s.count(FloatPoint.newRangeQuery("point", -8.0f, 1.0f)));
    assertEquals(3, s.count(FloatPoint.newRangeQuery("point", -7.0f, 3.0f)));
    assertEquals(1, s.count(FloatPoint.newExactQuery("point", -7.0f)));
    assertEquals(0, s.count(FloatPoint.newExactQuery("point", -6.0f)));
    w.close();
    r.close();
    dir.close();
  }

  public void testBasicLongs() throws Exception {
    Directory dir = newDirectory();
    IndexWriter w = new IndexWriter(dir, new IndexWriterConfig(new MockAnalyzer(random())));

    Document doc = new Document();
    doc.add(new LongPoint("point", -7));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new LongPoint("point", 0));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new LongPoint("point", 3));
    w.addDocument(doc);

    DirectoryReader r = DirectoryReader.open(w);
    IndexSearcher s = new IndexSearcher(r);
    assertEquals(2, s.count(LongPoint.newRangeQuery("point", -8L, 1L)));
    assertEquals(3, s.count(LongPoint.newRangeQuery("point", -7L, 3L)));
    assertEquals(1, s.count(LongPoint.newExactQuery("point", -7L)));
    assertEquals(0, s.count(LongPoint.newExactQuery("point", -6L)));
    w.close();
    r.close();
    dir.close();
  }

  public void testBasicDoubles() throws Exception {
    Directory dir = newDirectory();
    IndexWriter w = new IndexWriter(dir, new IndexWriterConfig(new MockAnalyzer(random())));

    Document doc = new Document();
    doc.add(new DoublePoint("point", -7.0));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new DoublePoint("point", 0.0));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new DoublePoint("point", 3.0));
    w.addDocument(doc);

    DirectoryReader r = DirectoryReader.open(w);
    IndexSearcher s = new IndexSearcher(r);
    assertEquals(2, s.count(DoublePoint.newRangeQuery("point", -8.0, 1.0)));
    assertEquals(3, s.count(DoublePoint.newRangeQuery("point", -7.0, 3.0)));
    assertEquals(1, s.count(DoublePoint.newExactQuery("point", -7.0)));
    assertEquals(0, s.count(DoublePoint.newExactQuery("point", -6.0)));
    w.close();
    r.close();
    dir.close();
  }

  public void testCrazyDoubles() throws Exception {
    Directory dir = newDirectory();
    IndexWriter w = new IndexWriter(dir, new IndexWriterConfig(new MockAnalyzer(random())));

    Document doc = new Document();
    doc.add(new DoublePoint("point", Double.NEGATIVE_INFINITY));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new DoublePoint("point", -0.0D));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new DoublePoint("point", +0.0D));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new DoublePoint("point", Double.MIN_VALUE));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new DoublePoint("point", Double.MAX_VALUE));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new DoublePoint("point", Double.POSITIVE_INFINITY));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new DoublePoint("point", Double.NaN));
    w.addDocument(doc);

    DirectoryReader r = DirectoryReader.open(w);
    IndexSearcher s = new IndexSearcher(r);

    // exact queries
    assertEquals(1, s.count(DoublePoint.newExactQuery("point", Double.NEGATIVE_INFINITY)));
    assertEquals(1, s.count(DoublePoint.newExactQuery("point", -0.0D)));
    assertEquals(1, s.count(DoublePoint.newExactQuery("point", +0.0D)));
    assertEquals(1, s.count(DoublePoint.newExactQuery("point", Double.MIN_VALUE)));
    assertEquals(1, s.count(DoublePoint.newExactQuery("point", Double.MAX_VALUE)));
    assertEquals(1, s.count(DoublePoint.newExactQuery("point", Double.POSITIVE_INFINITY)));
    assertEquals(1, s.count(DoublePoint.newExactQuery("point", Double.NaN)));

    // set query
    double[] set =
        new double[] {
          Double.MAX_VALUE,
          Double.NaN,
          +0.0D,
          Double.NEGATIVE_INFINITY,
          Double.MIN_VALUE,
          -0.0D,
          Double.POSITIVE_INFINITY
        };
    assertEquals(7, s.count(DoublePoint.newSetQuery("point", set)));

    // ranges
    assertEquals(2, s.count(DoublePoint.newRangeQuery("point", Double.NEGATIVE_INFINITY, -0.0D)));
    assertEquals(2, s.count(DoublePoint.newRangeQuery("point", -0.0D, 0.0D)));
    assertEquals(2, s.count(DoublePoint.newRangeQuery("point", 0.0D, Double.MIN_VALUE)));
    assertEquals(
        2, s.count(DoublePoint.newRangeQuery("point", Double.MIN_VALUE, Double.MAX_VALUE)));
    assertEquals(
        2, s.count(DoublePoint.newRangeQuery("point", Double.MAX_VALUE, Double.POSITIVE_INFINITY)));
    assertEquals(
        2, s.count(DoublePoint.newRangeQuery("point", Double.POSITIVE_INFINITY, Double.NaN)));

    w.close();
    r.close();
    dir.close();
  }

  public void testCrazyFloats() throws Exception {
    Directory dir = newDirectory();
    IndexWriter w = new IndexWriter(dir, new IndexWriterConfig(new MockAnalyzer(random())));

    Document doc = new Document();
    doc.add(new FloatPoint("point", Float.NEGATIVE_INFINITY));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new FloatPoint("point", -0.0F));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new FloatPoint("point", +0.0F));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new FloatPoint("point", Float.MIN_VALUE));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new FloatPoint("point", Float.MAX_VALUE));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new FloatPoint("point", Float.POSITIVE_INFINITY));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new FloatPoint("point", Float.NaN));
    w.addDocument(doc);

    DirectoryReader r = DirectoryReader.open(w);
    IndexSearcher s = new IndexSearcher(r);

    // exact queries
    assertEquals(1, s.count(FloatPoint.newExactQuery("point", Float.NEGATIVE_INFINITY)));
    assertEquals(1, s.count(FloatPoint.newExactQuery("point", -0.0F)));
    assertEquals(1, s.count(FloatPoint.newExactQuery("point", +0.0F)));
    assertEquals(1, s.count(FloatPoint.newExactQuery("point", Float.MIN_VALUE)));
    assertEquals(1, s.count(FloatPoint.newExactQuery("point", Float.MAX_VALUE)));
    assertEquals(1, s.count(FloatPoint.newExactQuery("point", Float.POSITIVE_INFINITY)));
    assertEquals(1, s.count(FloatPoint.newExactQuery("point", Float.NaN)));

    // set query
    float[] set =
        new float[] {
          Float.MAX_VALUE,
          Float.NaN,
          +0.0F,
          Float.NEGATIVE_INFINITY,
          Float.MIN_VALUE,
          -0.0F,
          Float.POSITIVE_INFINITY
        };
    assertEquals(7, s.count(FloatPoint.newSetQuery("point", set)));

    // ranges
    assertEquals(2, s.count(FloatPoint.newRangeQuery("point", Float.NEGATIVE_INFINITY, -0.0F)));
    assertEquals(2, s.count(FloatPoint.newRangeQuery("point", -0.0F, 0.0F)));
    assertEquals(2, s.count(FloatPoint.newRangeQuery("point", 0.0F, Float.MIN_VALUE)));
    assertEquals(2, s.count(FloatPoint.newRangeQuery("point", Float.MIN_VALUE, Float.MAX_VALUE)));
    assertEquals(
        2, s.count(FloatPoint.newRangeQuery("point", Float.MAX_VALUE, Float.POSITIVE_INFINITY)));
    assertEquals(2, s.count(FloatPoint.newRangeQuery("point", Float.POSITIVE_INFINITY, Float.NaN)));

    w.close();
    r.close();
    dir.close();
  }

  public void testAllEqual() throws Exception {
    int numValues = atLeast(1000);
    long value = randomValue();
    long[] values = new long[numValues];

    if (VERBOSE) {
      System.out.println("TEST: use same value=" + value);
    }
    Arrays.fill(values, value);

    verifyLongs(values, null);
  }

  public void testRandomLongsTiny() throws Exception {
    // Make sure single-leaf-node case is OK:
    doTestRandomLongs(10);
  }

  public void testRandomLongsMedium() throws Exception {
    doTestRandomLongs(1000);
  }

  // TODO: incredibly slow
  @Nightly
  public void testRandomLongsBig() throws Exception {
    doTestRandomLongs(20_000);
  }

  private void doTestRandomLongs(int count) throws Exception {

    int numValues = TestUtil.nextInt(random(), count, count * 2);

    if (VERBOSE) {
      System.out.println("TEST: numValues=" + numValues);
    }

    long[] values = new long[numValues];
    int[] ids = new int[numValues];

    boolean singleValued = random().nextBoolean();

    int sameValuePct = random().nextInt(100);

    int id = 0;
    for (int ord = 0; ord < numValues; ord++) {
      if (ord > 0 && random().nextInt(100) < sameValuePct) {
        // Identical to old value
        values[ord] = values[random().nextInt(ord)];
      } else {
        values[ord] = randomValue();
      }

      ids[ord] = id;
      if (singleValued || random().nextInt(2) == 1) {
        id++;
      }
    }

    verifyLongs(values, ids);
  }

  public void testLongEncode() {
    for (int i = 0; i < 10000; i++) {
      long v = random().nextLong();
      byte[] tmp = new byte[8];
      NumericUtils.longToSortableBytes(v, tmp, 0);
      long v2 = NumericUtils.sortableBytesToLong(tmp, 0);
      assertEquals("got bytes=" + Arrays.toString(tmp), v, v2);
    }
  }

  // verify for long values
  private static void verifyLongs(long[] values, int[] ids) throws Exception {
    IndexWriterConfig iwc = newIndexWriterConfig();

    // Else we can get O(N^2) merging:
    int mbd = iwc.getMaxBufferedDocs();
    if (mbd != -1 && mbd < values.length / 100) {
      iwc.setMaxBufferedDocs(values.length / 100);
    }
    iwc.setCodec(getCodec());
    Directory dir;
    if (values.length > 100000) {
      dir = newMaybeVirusCheckingFSDirectory(createTempDir("TestRangeTree"));
    } else {
      dir = newMaybeVirusCheckingDirectory();
    }

    /*
    The point range query chooses only considers using an inverse BKD visitor if
    there is exactly one value per document. If any document misses a value that
    code is not exercised. Using a nextBoolean() here increases the likelihood
    that there is no missing values, making the test more likely to test that code.
    */
    int missingPct = random().nextBoolean() ? 0 : random().nextInt(100);
    int deletedPct = random().nextInt(100);
    if (VERBOSE) {
      System.out.println("  missingPct=" + missingPct);
      System.out.println("  deletedPct=" + deletedPct);
    }

    BitSet missing = new BitSet();
    BitSet deleted = new BitSet();

    Document doc = null;
    int lastID = -1;

    IndexWriter w = new IndexWriter(dir, iwc);
    for (int ord = 0; ord < values.length; ord++) {
      int id;
      if (ids == null) {
        id = ord;
      } else {
        id = ids[ord];
      }
      if (id != lastID) {
        if (random().nextInt(100) < missingPct) {
          missing.set(id);
          if (VERBOSE) {
            System.out.println("  missing id=" + id);
          }
        }

        if (doc != null) {
          w.addDocument(doc);
          if (random().nextInt(100) < deletedPct) {
            int idToDelete = random().nextInt(id);
            w.deleteDocuments(new Term("id", "" + idToDelete));
            deleted.set(idToDelete);
            if (VERBOSE) {
              System.out.println("  delete id=" + idToDelete);
            }
          }
        }

        doc = new Document();
        doc.add(newStringField("id", "" + id, Field.Store.NO));
        doc.add(new NumericDocValuesField("id", id));
        lastID = id;
      }

      if (missing.get(id) == false) {
        doc.add(new LongPoint("sn_value", values[id]));
        byte[] bytes = new byte[8];
        NumericUtils.longToSortableBytes(values[id], bytes, 0);
        doc.add(new BinaryPoint("ss_value", bytes));
      }
    }

    w.addDocument(doc);

    if (random().nextBoolean()) {
      if (VERBOSE) {
        System.out.println("  forceMerge(1)");
      }
      w.forceMerge(1);
    }
    final IndexReader r = DirectoryReader.open(w);
    w.close();

    IndexSearcher s = newSearcher(r, false);

    int numThreads = TestUtil.nextInt(random(), 2, 5);

    if (VERBOSE) {
      System.out.println("TEST: use " + numThreads + " query threads; searcher=" + s);
    }

    List<Thread> threads = new ArrayList<>();
    final int iters = atLeast(100);

    final CountDownLatch startingGun = new CountDownLatch(1);
    final AtomicBoolean failed = new AtomicBoolean();

    for (int i = 0; i < numThreads; i++) {
      Thread thread =
          new Thread() {
            @Override
            public void run() {
              try {
                _run();
              } catch (Exception e) {
                failed.set(true);
                throw new RuntimeException(e);
              }
            }

            private void _run() throws Exception {
              startingGun.await();

              for (int iter = 0; iter < iters && failed.get() == false; iter++) {
                Long lower = randomValue();
                Long upper = randomValue();

                if (upper < lower) {
                  long x = lower;
                  lower = upper;
                  upper = x;
                }

                Query query;

                if (VERBOSE) {
                  System.out.println(
                      "\n"
                          + Thread.currentThread().getName()
                          + ": TEST: iter="
                          + iter
                          + " value="
                          + lower
                          + " TO "
                          + upper);
                  byte[] tmp = new byte[8];
                  NumericUtils.longToSortableBytes(lower, tmp, 0);
                  System.out.println("  lower bytes=" + Arrays.toString(tmp));
                  NumericUtils.longToSortableBytes(upper, tmp, 0);
                  System.out.println("  upper bytes=" + Arrays.toString(tmp));
                }

                if (random().nextBoolean()) {
                  query = LongPoint.newRangeQuery("sn_value", lower, upper);
                } else {
                  byte[] lowerBytes = new byte[8];
                  NumericUtils.longToSortableBytes(lower, lowerBytes, 0);
                  byte[] upperBytes = new byte[8];
                  NumericUtils.longToSortableBytes(upper, upperBytes, 0);
                  query = BinaryPoint.newRangeQuery("ss_value", lowerBytes, upperBytes);
                }

                if (VERBOSE) {
                  System.out.println(Thread.currentThread().getName() + ":  using query: " + query);
                }

                final FixedBitSet hits =
                    s.search(query, FixedBitSetCollector.createManager(r.maxDoc()));

                if (VERBOSE) {
                  System.out.println(
                      Thread.currentThread().getName() + ":  hitCount: " + hits.cardinality());
                }

                NumericDocValues docIDToID = MultiDocValues.getNumericValues(r, "id");

                for (int docID = 0; docID < r.maxDoc(); docID++) {
                  assertEquals(docID, docIDToID.nextDoc());
                  int id = (int) docIDToID.longValue();
                  boolean expected =
                      missing.get(id) == false
                          && deleted.get(id) == false
                          && values[id] >= lower
                          && values[id] <= upper;
                  if (hits.get(docID) != expected) {
                    // We do exact quantized comparison so the bbox query should never disagree:
                    fail(
                        Thread.currentThread().getName()
                            + ": iter="
                            + iter
                            + " id="
                            + id
                            + " docID="
                            + docID
                            + " value="
                            + values[id]
                            + " (range: "
                            + lower
                            + " TO "
                            + upper
                            + ") expected "
                            + expected
                            + " but got: "
                            + hits.get(docID)
                            + " deleted?="
                            + deleted.get(id)
                            + " query="
                            + query);
                  }
                }
              }
            }
          };
      thread.setName("T" + i);
      thread.start();
      threads.add(thread);
    }
    startingGun.countDown();
    for (Thread thread : threads) {
      thread.join();
    }
    IOUtils.close(r, dir);
  }

  public void testRandomBinaryTiny() throws Exception {
    doTestRandomBinary(10);
  }

  public void testRandomBinaryMedium() throws Exception {
    doTestRandomBinary(1000);
  }

  private void doTestRandomBinary(int count) throws Exception {
    int numValues = TestUtil.nextInt(random(), count, count * 2);
    int numBytesPerDim = TestUtil.nextInt(random(), 2, PointValues.MAX_NUM_BYTES);
    int numDims = TestUtil.nextInt(random(), 1, PointValues.MAX_INDEX_DIMENSIONS);

    int sameValuePct = random().nextInt(100);
    if (VERBOSE) {
      System.out.println("TEST: sameValuePct=" + sameValuePct);
    }

    byte[][][] docValues = new byte[numValues][][];

    boolean singleValued = random().nextBoolean();
    int[] ids = new int[numValues];

    int id = 0;
    if (VERBOSE) {
      System.out.println("Picking values: " + numValues);
    }
    for (int ord = 0; ord < numValues; ord++) {
      if (ord > 0 && random().nextInt(100) < sameValuePct) {
        // Identical to old value
        docValues[ord] = docValues[random().nextInt(ord)];
      } else {
        // Make a new random value
        byte[][] values = new byte[numDims][];
        for (int dim = 0; dim < numDims; dim++) {
          values[dim] = new byte[numBytesPerDim];
          random().nextBytes(values[dim]);
        }
        docValues[ord] = values;
      }
      ids[ord] = id;
      if (singleValued || random().nextInt(2) == 1) {
        id++;
      }
    }

    verifyBinary(docValues, ids, numBytesPerDim);
  }

  // verify for byte[][] values
  private void verifyBinary(byte[][][] docValues, int[] ids, int numBytesPerDim) throws Exception {
    IndexWriterConfig iwc = newIndexWriterConfig();

    int numDims = docValues[0].length;
    int bytesPerDim = docValues[0][0].length;

    // Else we can get O(N^2) merging:
    int mbd = iwc.getMaxBufferedDocs();
    if (mbd != -1 && mbd < docValues.length / 100) {
      iwc.setMaxBufferedDocs(docValues.length / 100);
    }
    iwc.setCodec(getCodec());

    Directory dir;
    if (docValues.length > 100000) {
      dir = newFSDirectory(createTempDir("TestPointQueries"));
    } else {
      dir = newDirectory();
    }

    IndexWriter w = new IndexWriter(dir, iwc);

    int numValues = docValues.length;
    if (VERBOSE) {
      System.out.println(
          "TEST: numValues="
              + numValues
              + " numDims="
              + numDims
              + " numBytesPerDim="
              + numBytesPerDim);
    }

    int missingPct = random().nextInt(100);
    int deletedPct = random().nextInt(100);
    if (VERBOSE) {
      System.out.println("  missingPct=" + missingPct);
      System.out.println("  deletedPct=" + deletedPct);
    }

    BitSet missing = new BitSet();
    BitSet deleted = new BitSet();

    Document doc = null;
    int lastID = -1;

    for (int ord = 0; ord < numValues; ord++) {
      if (ord % 1000 == 0) {
        if (VERBOSE) {
          System.out.println("Adding docs: " + ord);
        }
      }
      int id = ids[ord];
      if (id != lastID) {
        if (random().nextInt(100) < missingPct) {
          missing.set(id);
          if (VERBOSE) {
            System.out.println("  missing id=" + id);
          }
        }

        if (doc != null) {
          w.addDocument(doc);
          if (random().nextInt(100) < deletedPct) {
            int idToDelete = random().nextInt(id);
            w.deleteDocuments(new Term("id", "" + idToDelete));
            deleted.set(idToDelete);
            if (VERBOSE) {
              System.out.println("  delete id=" + idToDelete);
            }
          }
        }

        doc = new Document();
        doc.add(newStringField("id", "" + id, Field.Store.NO));
        doc.add(new NumericDocValuesField("id", id));
        lastID = id;
      }

      if (missing.get(id) == false) {
        doc.add(new BinaryPoint("value", docValues[ord]));
        doc.add(new SortedNumericDocValuesField("value", 1));
        if (VERBOSE) {
          System.out.println("id=" + id);
          for (int dim = 0; dim < numDims; dim++) {
            System.out.println("  dim=" + dim + " value=" + bytesToString(docValues[ord][dim]));
          }
        }
      }
    }

    w.addDocument(doc);

    if (random().nextBoolean()) {
      if (VERBOSE) {
        System.out.println("  forceMerge(1)");
      }
      w.forceMerge(1);
    }
    final IndexReader r = DirectoryReader.open(w);
    w.close();

    IndexSearcher s = newSearcher(r, false);

    int numThreads = TestUtil.nextInt(random(), 2, 5);

    if (VERBOSE) {
      System.out.println("TEST: use " + numThreads + " query threads; searcher=" + s);
    }

    List<Thread> threads = new ArrayList<>();
    final int iters = atLeast(100);

    final CountDownLatch startingGun = new CountDownLatch(1);
    final AtomicBoolean failed = new AtomicBoolean();

    for (int i = 0; i < numThreads; i++) {
      Thread thread =
          new Thread() {
            @Override
            public void run() {
              try {
                _run();
              } catch (Exception e) {
                failed.set(true);
                throw new RuntimeException(e);
              }
            }

            private void _run() throws Exception {
              startingGun.await();

              for (int iter = 0; iter < iters && failed.get() == false; iter++) {

                byte[][] lower = new byte[numDims][];
                byte[][] upper = new byte[numDims][];
                for (int dim = 0; dim < numDims; dim++) {
                  lower[dim] = new byte[bytesPerDim];
                  random().nextBytes(lower[dim]);

                  upper[dim] = new byte[bytesPerDim];
                  random().nextBytes(upper[dim]);

                  if (Arrays.compareUnsigned(lower[dim], 0, bytesPerDim, upper[dim], 0, bytesPerDim)
                      > 0) {
                    byte[] x = lower[dim];
                    lower[dim] = upper[dim];
                    upper[dim] = x;
                  }
                }

                if (VERBOSE) {
                  System.out.println(
                      "\n" + Thread.currentThread().getName() + ": TEST: iter=" + iter);
                  for (int dim = 0; dim < numDims; dim++) {
                    System.out.println(
                        "  dim="
                            + dim
                            + " "
                            + bytesToString(lower[dim])
                            + " TO "
                            + bytesToString(upper[dim]));
                  }
                }

                Query query = BinaryPoint.newRangeQuery("value", lower, upper);

                if (VERBOSE) {
                  System.out.println(Thread.currentThread().getName() + ":  using query: " + query);
                }

                final FixedBitSet hits =
                    s.search(query, FixedBitSetCollector.createManager(r.maxDoc()));

                if (VERBOSE) {
                  System.out.println(
                      Thread.currentThread().getName() + ":  hitCount: " + hits.cardinality());
                }

                BitSet expected = new BitSet();
                for (int ord = 0; ord < numValues; ord++) {
                  int id = ids[ord];
                  if (missing.get(id) == false
                      && deleted.get(id) == false
                      && matches(bytesPerDim, lower, upper, docValues[ord])) {
                    expected.set(id);
                  }
                }

                NumericDocValues docIDToID = MultiDocValues.getNumericValues(r, "id");

                int failCount = 0;
                for (int docID = 0; docID < r.maxDoc(); docID++) {
                  assertEquals(docID, docIDToID.nextDoc());
                  int id = (int) docIDToID.longValue();
                  if (hits.get(docID) != expected.get(id)) {
                    System.out.println(
                        "FAIL: iter="
                            + iter
                            + " id="
                            + id
                            + " docID="
                            + docID
                            + " expected="
                            + expected.get(id)
                            + " but got "
                            + hits.get(docID)
                            + " deleted?="
                            + deleted.get(id)
                            + " missing?="
                            + missing.get(id));
                    for (int dim = 0; dim < numDims; dim++) {
                      System.out.println(
                          "  dim="
                              + dim
                              + " range: "
                              + bytesToString(lower[dim])
                              + " TO "
                              + bytesToString(upper[dim]));
                      failCount++;
                    }
                  }
                }
                if (failCount != 0) {
                  fail(failCount + " hits were wrong");
                }
              }
            }
          };
      thread.setName("T" + i);
      thread.start();
      threads.add(thread);
    }

    startingGun.countDown();
    for (Thread thread : threads) {
      thread.join();
    }

    IOUtils.close(r, dir);
  }

  static String bytesToString(byte[] bytes) {
    if (bytes == null) {
      return "null";
    }
    return newBytesRef(bytes).toString();
  }

  private static boolean matches(int bytesPerDim, byte[][] lower, byte[][] upper, byte[][] value) {
    int numDims = lower.length;
    for (int dim = 0; dim < numDims; dim++) {

      if (Arrays.compareUnsigned(value[dim], 0, bytesPerDim, lower[dim], 0, bytesPerDim) < 0) {
        // Value is below the lower bound, on this dim
        return false;
      }

      if (Arrays.compareUnsigned(value[dim], 0, bytesPerDim, upper[dim], 0, bytesPerDim) > 0) {
        // Value is above the upper bound, on this dim
        return false;
      }
    }

    return true;
  }

  private static long randomValue() {
    if (valueRange == 0) {
      return random().nextLong();
    } else {
      return valueMid + TestUtil.nextInt(random(), -valueRange, valueRange);
    }
  }

  public void testMinMaxLong() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);
    Document doc = new Document();
    doc.add(new LongPoint("value", Long.MIN_VALUE));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new LongPoint("value", Long.MAX_VALUE));
    w.addDocument(doc);

    IndexReader r = w.getReader();

    IndexSearcher s = newSearcher(r, false);

    assertEquals(1, s.count(LongPoint.newRangeQuery("value", Long.MIN_VALUE, 0L)));
    assertEquals(1, s.count(LongPoint.newRangeQuery("value", 0L, Long.MAX_VALUE)));
    assertEquals(2, s.count(LongPoint.newRangeQuery("value", Long.MIN_VALUE, Long.MAX_VALUE)));

    IOUtils.close(r, w, dir);
  }

  private static byte[] toUTF8(String s) {
    return s.getBytes(StandardCharsets.UTF_8);
  }

  // Right zero pads:
  private static byte[] toUTF8(String s, int length) {
    byte[] bytes = s.getBytes(StandardCharsets.UTF_8);
    if (length < bytes.length) {
      throw new IllegalArgumentException(
          "length=" + length + " but string's UTF8 bytes has length=" + bytes.length);
    }
    byte[] result = new byte[length];
    System.arraycopy(bytes, 0, result, 0, bytes.length);
    return result;
  }

  public void testBasicSortedSet() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);
    Document doc = new Document();
    doc.add(new BinaryPoint("value", toUTF8("abc")));
    w.addDocument(doc);
    doc = new Document();
    doc.add(new BinaryPoint("value", toUTF8("def")));
    w.addDocument(doc);

    IndexReader r = w.getReader();

    IndexSearcher s = newSearcher(r, false);

    assertEquals(1, s.count(BinaryPoint.newRangeQuery("value", toUTF8("aaa"), toUTF8("bbb"))));
    assertEquals(1, s.count(BinaryPoint.newRangeQuery("value", toUTF8("c", 3), toUTF8("e", 3))));
    assertEquals(2, s.count(BinaryPoint.newRangeQuery("value", toUTF8("a", 3), toUTF8("z", 3))));
    assertEquals(1, s.count(BinaryPoint.newRangeQuery("value", toUTF8("", 3), toUTF8("abc"))));
    assertEquals(1, s.count(BinaryPoint.newRangeQuery("value", toUTF8("a", 3), toUTF8("abc"))));
    assertEquals(0, s.count(BinaryPoint.newRangeQuery("value", toUTF8("a", 3), toUTF8("abb"))));
    assertEquals(1, s.count(BinaryPoint.newRangeQuery("value", toUTF8("def"), toUTF8("zzz"))));
    assertEquals(1, s.count(BinaryPoint.newRangeQuery("value", toUTF8(("def")), toUTF8("z", 3))));
    assertEquals(0, s.count(BinaryPoint.newRangeQuery("value", toUTF8("deg"), toUTF8("z", 3))));

    IOUtils.close(r, w, dir);
  }

  public void testLongMinMaxNumeric() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);
    Document doc = new Document();
    doc.add(new LongPoint("value", Long.MIN_VALUE));
    w.addDocument(doc);
    doc = new Document();
    doc.add(new LongPoint("value", Long.MAX_VALUE));
    w.addDocument(doc);

    IndexReader r = w.getReader();

    IndexSearcher s = newSearcher(r, false);

    assertEquals(2, s.count(LongPoint.newRangeQuery("value", Long.MIN_VALUE, Long.MAX_VALUE)));
    assertEquals(1, s.count(LongPoint.newRangeQuery("value", Long.MIN_VALUE, Long.MAX_VALUE - 1)));
    assertEquals(1, s.count(LongPoint.newRangeQuery("value", Long.MIN_VALUE + 1, Long.MAX_VALUE)));
    assertEquals(
        0, s.count(LongPoint.newRangeQuery("value", Long.MIN_VALUE + 1, Long.MAX_VALUE - 1)));

    IOUtils.close(r, w, dir);
  }

  public void testLongMinMaxSortedSet() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);
    Document doc = new Document();
    doc.add(new LongPoint("value", Long.MIN_VALUE));
    w.addDocument(doc);
    doc = new Document();
    doc.add(new LongPoint("value", Long.MAX_VALUE));
    w.addDocument(doc);

    IndexReader r = w.getReader();

    IndexSearcher s = newSearcher(r, false);

    assertEquals(2, s.count(LongPoint.newRangeQuery("value", Long.MIN_VALUE, Long.MAX_VALUE)));
    assertEquals(1, s.count(LongPoint.newRangeQuery("value", Long.MIN_VALUE, Long.MAX_VALUE - 1)));
    assertEquals(1, s.count(LongPoint.newRangeQuery("value", Long.MIN_VALUE + 1, Long.MAX_VALUE)));
    assertEquals(
        0, s.count(LongPoint.newRangeQuery("value", Long.MIN_VALUE + 1, Long.MAX_VALUE - 1)));

    IOUtils.close(r, w, dir);
  }

  public void testSortedSetNoOrdsMatch() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);
    Document doc = new Document();
    doc.add(new BinaryPoint("value", toUTF8("a")));
    w.addDocument(doc);
    doc = new Document();
    doc.add(new BinaryPoint("value", toUTF8("z")));
    w.addDocument(doc);

    IndexReader r = w.getReader();

    IndexSearcher s = newSearcher(r, false);
    assertEquals(0, s.count(BinaryPoint.newRangeQuery("value", toUTF8("m"), toUTF8("m"))));

    IOUtils.close(r, w, dir);
  }

  public void testNumericNoValuesMatch() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);
    Document doc = new Document();
    doc.add(new SortedNumericDocValuesField("value", 17));
    w.addDocument(doc);
    doc = new Document();
    doc.add(new SortedNumericDocValuesField("value", 22));
    w.addDocument(doc);

    IndexReader r = w.getReader();

    IndexSearcher s = new IndexSearcher(r);
    assertEquals(0, s.count(LongPoint.newRangeQuery("value", 17L, 13L)));

    IOUtils.close(r, w, dir);
  }

  public void testNoDocs() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);
    w.addDocument(new Document());

    IndexReader r = w.getReader();

    IndexSearcher s = newSearcher(r, false);
    assertEquals(0, s.count(LongPoint.newRangeQuery("value", 17L, 13L)));

    IOUtils.close(r, w, dir);
  }

  public void testWrongNumDims() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);
    Document doc = new Document();
    doc.add(new LongPoint("value", Long.MIN_VALUE));
    w.addDocument(doc);

    IndexReader r = w.getReader();

    // no wrapping, else the exc might happen in executor thread:
    IndexSearcher s = new IndexSearcher(r);
    byte[][] point = new byte[2][];
    point[0] = new byte[8];
    point[1] = new byte[8];
    IllegalArgumentException expected =
        expectThrows(
            IllegalArgumentException.class,
            () -> {
              s.count(BinaryPoint.newRangeQuery("value", point, point));
            });
    assertEquals(
        "field=\"value\" was indexed with numIndexDimensions=1 but this query has numDims=2",
        expected.getMessage());

    IOUtils.close(r, w, dir);
  }

  public void testWrongNumBytes() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);
    Document doc = new Document();
    doc.add(new LongPoint("value", Long.MIN_VALUE));
    w.addDocument(doc);

    IndexReader r = w.getReader();

    // no wrapping, else the exc might happen in executor thread:
    IndexSearcher s = new IndexSearcher(r);
    byte[][] point = new byte[1][];
    point[0] = new byte[10];
    IllegalArgumentException expected =
        expectThrows(
            IllegalArgumentException.class,
            () -> {
              s.count(BinaryPoint.newRangeQuery("value", point, point));
            });
    assertEquals(
        "field=\"value\" was indexed with bytesPerDim=8 but this query has bytesPerDim=10",
        expected.getMessage());

    IOUtils.close(r, w, dir);
  }

  public void testAllPointDocsWereDeletedAndThenMergedAgain() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    IndexWriter w = new IndexWriter(dir, iwc);
    Document doc = new Document();
    doc.add(new StringField("id", "0", Field.Store.NO));
    doc.add(new LongPoint("value", 0L));
    w.addDocument(doc);

    // Add document that won't be deleted to avoid IW dropping
    // segment below since it's 100% deleted:
    w.addDocument(new Document());
    w.commit();

    // Need another segment so we invoke BKDWriter.merge
    doc = new Document();
    doc.add(new StringField("id", "0", Field.Store.NO));
    doc.add(new LongPoint("value", 0L));
    w.addDocument(doc);
    w.addDocument(new Document());

    w.deleteDocuments(new Term("id", "0"));
    w.forceMerge(1);

    doc = new Document();
    doc.add(new StringField("id", "0", Field.Store.NO));
    doc.add(new LongPoint("value", 0L));
    w.addDocument(doc);
    w.addDocument(new Document());

    w.deleteDocuments(new Term("id", "0"));
    w.forceMerge(1);

    IOUtils.close(w, dir);
  }

  private static Codec getCodec() {
    if (Codec.getDefault().getName().equals("Lucene84")) {
      int maxPointsInLeafNode = TestUtil.nextInt(random(), 16, 2048);
      double maxMBSortInHeap = 5.0 + (3 * random().nextDouble());
      if (VERBOSE) {
        System.out.println(
            "TEST: using Lucene60PointsFormat with maxPointsInLeafNode="
                + maxPointsInLeafNode
                + " and maxMBSortInHeap="
                + maxMBSortInHeap);
      }

      return new FilterCodec("Lucene84", Codec.getDefault()) {
        @Override
        public PointsFormat pointsFormat() {
          return new PointsFormat() {
            @Override
            public PointsWriter fieldsWriter(SegmentWriteState writeState) throws IOException {
              return new Lucene90PointsWriter(writeState, maxPointsInLeafNode, maxMBSortInHeap);
            }

            @Override
            public PointsReader fieldsReader(SegmentReadState readState) throws IOException {
              return new Lucene90PointsReader(readState);
            }
          };
        }
      };
    } else {
      return Codec.getDefault();
    }
  }

  public void testExactPoints() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    IndexWriter w = new IndexWriter(dir, iwc);

    Document doc = new Document();
    doc.add(new LongPoint("long", 5L));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new IntPoint("int", 42));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new FloatPoint("float", 2.0f));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new DoublePoint("double", 1.0));
    w.addDocument(doc);

    IndexReader r = DirectoryReader.open(w);
    IndexSearcher s = newSearcher(r, false);
    assertEquals(1, s.count(IntPoint.newExactQuery("int", 42)));
    assertEquals(0, s.count(IntPoint.newExactQuery("int", 41)));

    assertEquals(1, s.count(LongPoint.newExactQuery("long", 5L)));
    assertEquals(0, s.count(LongPoint.newExactQuery("long", -1L)));

    assertEquals(1, s.count(FloatPoint.newExactQuery("float", 2.0f)));
    assertEquals(0, s.count(FloatPoint.newExactQuery("float", 1.0f)));

    assertEquals(1, s.count(DoublePoint.newExactQuery("double", 1.0)));
    assertEquals(0, s.count(DoublePoint.newExactQuery("double", 2.0)));
    w.close();
    r.close();
    dir.close();
  }

  public void testToString() throws Exception {

    // ints
    assertEquals("field:[1 TO 2]", IntPoint.newRangeQuery("field", 1, 2).toString());
    assertEquals("field:[-2 TO 1]", IntPoint.newRangeQuery("field", -2, 1).toString());

    // longs
    assertEquals(
        "field:[1099511627776 TO 2199023255552]",
        LongPoint.newRangeQuery("field", 1L << 40, 1L << 41).toString());
    assertEquals("field:[-5 TO 6]", LongPoint.newRangeQuery("field", -5L, 6L).toString());

    // floats
    assertEquals("field:[1.3 TO 2.5]", FloatPoint.newRangeQuery("field", 1.3F, 2.5F).toString());
    assertEquals("field:[-2.9 TO 1.0]", FloatPoint.newRangeQuery("field", -2.9F, 1.0F).toString());

    // doubles
    assertEquals("field:[1.3 TO 2.5]", DoublePoint.newRangeQuery("field", 1.3, 2.5).toString());
    assertEquals("field:[-2.9 TO 1.0]", DoublePoint.newRangeQuery("field", -2.9, 1.0).toString());

    // n-dimensional double
    assertEquals(
        "field:[1.3 TO 2.5],[-2.9 TO 1.0]",
        DoublePoint.newRangeQuery("field", new double[] {1.3, -2.9}, new double[] {2.5, 1.0})
            .toString());
  }

  private int[] toArray(Set<Integer> valuesSet) {
    int[] values = new int[valuesSet.size()];
    int upto = 0;
    for (Integer value : valuesSet) {
      values[upto++] = value;
    }
    return values;
  }

  private static int randomIntValue(Integer min, Integer max) {
    if (min == null) {
      return random().nextInt();
    } else {
      return TestUtil.nextInt(random(), min, max);
    }
  }

  public void testRandomPointInSetQuery() throws Exception {

    boolean useNarrowRange = random().nextBoolean();
    final Integer valueMin;
    final Integer valueMax;
    int numValues;
    if (useNarrowRange) {
      int gap = random().nextInt(100);
      valueMin = random().nextInt(Integer.MAX_VALUE - gap);
      valueMax = valueMin + gap;
      numValues = TestUtil.nextInt(random(), 1, gap + 1);
    } else {
      valueMin = null;
      valueMax = null;
      numValues = TestUtil.nextInt(random(), 1, 100);
    }
    final Set<Integer> valuesSet = new HashSet<>();
    while (valuesSet.size() < numValues) {
      valuesSet.add(randomIntValue(valueMin, valueMax));
    }
    int[] values = toArray(valuesSet);
    int numDocs = TestUtil.nextInt(random(), 1, 10000);

    if (VERBOSE) {
      System.out.println("TEST: numValues=" + numValues + " numDocs=" + numDocs);
    }

    Directory dir;
    if (numDocs > 100000) {
      dir = newFSDirectory(createTempDir("TestPointQueries"));
    } else {
      dir = newDirectory();
    }

    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);

    int[] docValues = new int[numDocs];
    for (int i = 0; i < numDocs; i++) {
      int x = values[random().nextInt(values.length)];
      Document doc = new Document();
      doc.add(new IntPoint("int", x));
      docValues[i] = x;
      w.addDocument(doc);
    }

    if (random().nextBoolean()) {
      if (VERBOSE) {
        System.out.println("  forceMerge(1)");
      }
      w.forceMerge(1);
    }
    final IndexReader r = w.getReader();
    w.close();

    IndexSearcher s = newSearcher(r, false);

    int numThreads = TestUtil.nextInt(random(), 2, 5);

    if (VERBOSE) {
      System.out.println("TEST: use " + numThreads + " query threads; searcher=" + s);
    }

    List<Thread> threads = new ArrayList<>();
    final int iters = atLeast(100);

    final CountDownLatch startingGun = new CountDownLatch(1);
    final AtomicBoolean failed = new AtomicBoolean();

    for (int i = 0; i < numThreads; i++) {
      Thread thread =
          new Thread() {
            @Override
            public void run() {
              try {
                _run();
              } catch (Exception e) {
                failed.set(true);
                throw new RuntimeException(e);
              }
            }

            private void _run() throws Exception {
              startingGun.await();

              for (int iter = 0; iter < iters && failed.get() == false; iter++) {

                int numValidValuesToQuery = random().nextInt(values.length);

                Set<Integer> valuesToQuery = new HashSet<>();
                while (valuesToQuery.size() < numValidValuesToQuery) {
                  valuesToQuery.add(values[random().nextInt(values.length)]);
                }

                int numExtraValuesToQuery = random().nextInt(20);
                while (valuesToQuery.size() < numValidValuesToQuery + numExtraValuesToQuery) {
                  valuesToQuery.add(random().nextInt());
                }

                int expectedCount = 0;
                for (int value : docValues) {
                  if (valuesToQuery.contains(value)) {
                    expectedCount++;
                  }
                }

                if (VERBOSE) {
                  System.out.println(
                      "TEST: thread="
                          + Thread.currentThread()
                          + " values="
                          + valuesToQuery
                          + " expectedCount="
                          + expectedCount);
                }

                assertEquals(
                    expectedCount, s.count(IntPoint.newSetQuery("int", toArray(valuesToQuery))));
              }
            }
          };
      thread.setName("T" + i);
      thread.start();
      threads.add(thread);
    }
    startingGun.countDown();
    for (Thread thread : threads) {
      thread.join();
    }
    IOUtils.close(r, dir);
  }

  // TODO: in the future, if there is demand for real usage, we can "graduate" this test-only query
  // factory as IntPoint.newMultiSetQuery or
  // something (and same for other XXXPoint classes):
  private static Query newMultiDimIntSetQuery(String field, final int numDims, int... valuesIn)
      throws IOException {
    if (valuesIn.length % numDims != 0) {
      throw new IllegalArgumentException(
          "incongruent number of values: valuesIn.length="
              + valuesIn.length
              + " but numDims="
              + numDims);
    }

    // Pack all values:
    byte[][] packedValues = new byte[valuesIn.length / numDims][];
    for (int i = 0; i < packedValues.length; i++) {
      byte[] packedValue = new byte[numDims * Integer.BYTES];
      packedValues[i] = packedValue;
      for (int dim = 0; dim < numDims; dim++) {
        IntPoint.encodeDimension(valuesIn[i * numDims + dim], packedValue, dim * Integer.BYTES);
      }
    }

    // Sort:
    Arrays.sort(
        packedValues,
        new Comparator<byte[]>() {
          @Override
          public int compare(byte[] a, byte[] b) {
            return Arrays.compareUnsigned(a, 0, a.length, b, 0, a.length);
          }
        });

    final BytesRef value = new BytesRef();
    value.length = numDims * Integer.BYTES;

    return new PointInSetQuery(
        field,
        numDims,
        Integer.BYTES,
        new PointInSetQuery.Stream() {
          int upto;

          @Override
          public BytesRef next() {
            if (upto >= packedValues.length) {
              return null;
            }
            value.bytes = packedValues[upto];
            upto++;
            return value;
          }
        }) {
      @Override
      protected String toString(byte[] value) {
        assert value.length == numDims * Integer.BYTES;
        StringBuilder sb = new StringBuilder();
        for (int dim = 0; dim < numDims; dim++) {
          if (dim > 0) {
            sb.append(',');
          }
          sb.append(Integer.toString(IntPoint.decodeDimension(value, dim * Integer.BYTES)));
        }

        return sb.toString();
      }
    };
  }

  public void testBasicMultiDimPointInSetQuery() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    IndexWriter w = new IndexWriter(dir, iwc);

    Document doc = new Document();
    doc.add(new IntPoint("int", 17, 42));
    w.addDocument(doc);
    IndexReader r = DirectoryReader.open(w);
    IndexSearcher s = newSearcher(r, false);

    assertEquals(0, s.count(newMultiDimIntSetQuery("int", 2, 17, 41)));
    assertEquals(1, s.count(newMultiDimIntSetQuery("int", 2, 17, 42)));
    assertEquals(1, s.count(newMultiDimIntSetQuery("int", 2, -7, -7, 17, 42)));
    assertEquals(1, s.count(newMultiDimIntSetQuery("int", 2, 17, 42, -14, -14)));

    w.close();
    r.close();
    dir.close();
  }

  public void testBasicMultiValueMultiDimPointInSetQuery() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    IndexWriter w = new IndexWriter(dir, iwc);

    Document doc = new Document();
    doc.add(new IntPoint("int", 17, 42));
    doc.add(new IntPoint("int", 34, 79));
    w.addDocument(doc);
    IndexReader r = DirectoryReader.open(w);
    IndexSearcher s = newSearcher(r, false);

    assertEquals(0, s.count(newMultiDimIntSetQuery("int", 2, 17, 41)));
    assertEquals(1, s.count(newMultiDimIntSetQuery("int", 2, 17, 42)));
    assertEquals(1, s.count(newMultiDimIntSetQuery("int", 2, 17, 42, 34, 79)));
    assertEquals(1, s.count(newMultiDimIntSetQuery("int", 2, -7, -7, 17, 42)));
    assertEquals(1, s.count(newMultiDimIntSetQuery("int", 2, -7, -7, 34, 79)));
    assertEquals(1, s.count(newMultiDimIntSetQuery("int", 2, 17, 42, -14, -14)));

    assertEquals(
        "int:{-14,-14 17,42}", newMultiDimIntSetQuery("int", 2, 17, 42, -14, -14).toString());

    w.close();
    r.close();
    dir.close();
  }

  public void testManyEqualValuesMultiDimPointInSetQuery() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    IndexWriter w = new IndexWriter(dir, iwc);

    int zeroCount = 0;
    for (int i = 0; i < 10000; i++) {
      int x = random().nextInt(2);
      if (x == 0) {
        zeroCount++;
      }
      Document doc = new Document();
      doc.add(new IntPoint("int", x, x));
      w.addDocument(doc);
    }
    IndexReader r = DirectoryReader.open(w);
    IndexSearcher s = newSearcher(r, false);

    assertEquals(zeroCount, s.count(newMultiDimIntSetQuery("int", 2, 0, 0)));
    assertEquals(10000 - zeroCount, s.count(newMultiDimIntSetQuery("int", 2, 1, 1)));
    assertEquals(0, s.count(newMultiDimIntSetQuery("int", 2, 2, 2)));

    w.close();
    r.close();
    dir.close();
  }

  public void testInvalidMultiDimPointInSetQuery() throws Exception {
    IllegalArgumentException expected =
        expectThrows(
            IllegalArgumentException.class,
            () -> {
              newMultiDimIntSetQuery("int", 2, 3, 4, 5);
            });
    assertEquals(
        "incongruent number of values: valuesIn.length=3 but numDims=2", expected.getMessage());
  }

  public void testBasicPointInSetQuery() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    IndexWriter w = new IndexWriter(dir, iwc);

    Document doc = new Document();
    doc.add(new IntPoint("int", 17));
    doc.add(new LongPoint("long", 17L));
    doc.add(new FloatPoint("float", 17.0f));
    doc.add(new DoublePoint("double", 17.0));
    doc.add(new BinaryPoint("bytes", new byte[] {0, 17}));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new IntPoint("int", 42));
    doc.add(new LongPoint("long", 42L));
    doc.add(new FloatPoint("float", 42.0f));
    doc.add(new DoublePoint("double", 42.0));
    doc.add(new BinaryPoint("bytes", new byte[] {0, 42}));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new IntPoint("int", 97));
    doc.add(new LongPoint("long", 97L));
    doc.add(new FloatPoint("float", 97.0f));
    doc.add(new DoublePoint("double", 97.0));
    doc.add(new BinaryPoint("bytes", new byte[] {0, 97}));
    w.addDocument(doc);

    IndexReader r = DirectoryReader.open(w);
    IndexSearcher s = newSearcher(r, false);
    assertEquals(0, s.count(IntPoint.newSetQuery("int", 16)));
    assertEquals(1, s.count(IntPoint.newSetQuery("int", 17)));
    assertEquals(3, s.count(IntPoint.newSetQuery("int", 17, 97, 42)));
    assertEquals(3, s.count(IntPoint.newSetQuery("int", -7, 17, 42, 97)));
    assertEquals(3, s.count(IntPoint.newSetQuery("int", 17, 20, 42, 97)));
    assertEquals(3, s.count(IntPoint.newSetQuery("int", 17, 105, 42, 97)));

    assertEquals(0, s.count(LongPoint.newSetQuery("long", 16)));
    assertEquals(1, s.count(LongPoint.newSetQuery("long", 17)));
    assertEquals(3, s.count(LongPoint.newSetQuery("long", 17, 97, 42)));
    assertEquals(3, s.count(LongPoint.newSetQuery("long", -7, 17, 42, 97)));
    assertEquals(3, s.count(LongPoint.newSetQuery("long", 17, 20, 42, 97)));
    assertEquals(3, s.count(LongPoint.newSetQuery("long", 17, 105, 42, 97)));

    assertEquals(0, s.count(FloatPoint.newSetQuery("float", 16)));
    assertEquals(1, s.count(FloatPoint.newSetQuery("float", 17)));
    assertEquals(3, s.count(FloatPoint.newSetQuery("float", 17, 97, 42)));
    assertEquals(3, s.count(FloatPoint.newSetQuery("float", -7, 17, 42, 97)));
    assertEquals(3, s.count(FloatPoint.newSetQuery("float", 17, 20, 42, 97)));
    assertEquals(3, s.count(FloatPoint.newSetQuery("float", 17, 105, 42, 97)));

    assertEquals(0, s.count(DoublePoint.newSetQuery("double", 16)));
    assertEquals(1, s.count(DoublePoint.newSetQuery("double", 17)));
    assertEquals(3, s.count(DoublePoint.newSetQuery("double", 17, 97, 42)));
    assertEquals(3, s.count(DoublePoint.newSetQuery("double", -7, 17, 42, 97)));
    assertEquals(3, s.count(DoublePoint.newSetQuery("double", 17, 20, 42, 97)));
    assertEquals(3, s.count(DoublePoint.newSetQuery("double", 17, 105, 42, 97)));

    assertEquals(0, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {0, 16})));
    assertEquals(1, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {0, 17})));
    assertEquals(
        3,
        s.count(
            BinaryPoint.newSetQuery(
                "bytes", new byte[] {0, 17}, new byte[] {0, 97}, new byte[] {0, 42})));
    assertEquals(
        3,
        s.count(
            BinaryPoint.newSetQuery(
                "bytes",
                new byte[] {0, -7},
                new byte[] {0, 17},
                new byte[] {0, 42},
                new byte[] {0, 97})));
    assertEquals(
        3,
        s.count(
            BinaryPoint.newSetQuery(
                "bytes",
                new byte[] {0, 17},
                new byte[] {0, 20},
                new byte[] {0, 42},
                new byte[] {0, 97})));
    assertEquals(
        3,
        s.count(
            BinaryPoint.newSetQuery(
                "bytes",
                new byte[] {0, 17},
                new byte[] {0, 105},
                new byte[] {0, 42},
                new byte[] {0, 97})));

    w.close();
    r.close();
    dir.close();
  }

  /** Boxed methods for primitive types should behave the same as unboxed: just sugar */
  public void testPointIntSetBoxed() throws Exception {
    assertEquals(
        IntPoint.newSetQuery("foo", 1, 2, 3), IntPoint.newSetQuery("foo", Arrays.asList(1, 2, 3)));
    assertEquals(
        FloatPoint.newSetQuery("foo", 1F, 2F, 3F),
        FloatPoint.newSetQuery("foo", Arrays.asList(1F, 2F, 3F)));
    assertEquals(
        LongPoint.newSetQuery("foo", 1L, 2L, 3L),
        LongPoint.newSetQuery("foo", Arrays.asList(1L, 2L, 3L)));
    assertEquals(
        DoublePoint.newSetQuery("foo", 1D, 2D, 3D),
        DoublePoint.newSetQuery("foo", Arrays.asList(1D, 2D, 3D)));
  }

  public void testBasicMultiValuedPointInSetQuery() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    IndexWriter w = new IndexWriter(dir, iwc);

    Document doc = new Document();
    doc.add(new IntPoint("int", 17));
    doc.add(new IntPoint("int", 42));
    doc.add(new LongPoint("long", 17L));
    doc.add(new LongPoint("long", 42L));
    doc.add(new FloatPoint("float", 17.0f));
    doc.add(new FloatPoint("float", 42.0f));
    doc.add(new DoublePoint("double", 17.0));
    doc.add(new DoublePoint("double", 42.0));
    doc.add(new BinaryPoint("bytes", new byte[] {0, 17}));
    doc.add(new BinaryPoint("bytes", new byte[] {0, 42}));
    w.addDocument(doc);

    IndexReader r = DirectoryReader.open(w);
    IndexSearcher s = newSearcher(r, false);
    assertEquals(0, s.count(IntPoint.newSetQuery("int", 16)));
    assertEquals(1, s.count(IntPoint.newSetQuery("int", 17)));
    assertEquals(1, s.count(IntPoint.newSetQuery("int", 17, 97, 42)));
    assertEquals(1, s.count(IntPoint.newSetQuery("int", -7, 17, 42, 97)));
    assertEquals(0, s.count(IntPoint.newSetQuery("int", 16, 20, 41, 97)));

    assertEquals(0, s.count(LongPoint.newSetQuery("long", 16)));
    assertEquals(1, s.count(LongPoint.newSetQuery("long", 17)));
    assertEquals(1, s.count(LongPoint.newSetQuery("long", 17, 97, 42)));
    assertEquals(1, s.count(LongPoint.newSetQuery("long", -7, 17, 42, 97)));
    assertEquals(0, s.count(LongPoint.newSetQuery("long", 16, 20, 41, 97)));

    assertEquals(0, s.count(FloatPoint.newSetQuery("float", 16)));
    assertEquals(1, s.count(FloatPoint.newSetQuery("float", 17)));
    assertEquals(1, s.count(FloatPoint.newSetQuery("float", 17, 97, 42)));
    assertEquals(1, s.count(FloatPoint.newSetQuery("float", -7, 17, 42, 97)));
    assertEquals(0, s.count(FloatPoint.newSetQuery("float", 16, 20, 41, 97)));

    assertEquals(0, s.count(DoublePoint.newSetQuery("double", 16)));
    assertEquals(1, s.count(DoublePoint.newSetQuery("double", 17)));
    assertEquals(1, s.count(DoublePoint.newSetQuery("double", 17, 97, 42)));
    assertEquals(1, s.count(DoublePoint.newSetQuery("double", -7, 17, 42, 97)));
    assertEquals(0, s.count(DoublePoint.newSetQuery("double", 16, 20, 41, 97)));

    assertEquals(0, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {0, 16})));
    assertEquals(1, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {0, 17})));
    assertEquals(
        1,
        s.count(
            BinaryPoint.newSetQuery(
                "bytes", new byte[] {0, 17}, new byte[] {0, 97}, new byte[] {0, 42})));
    assertEquals(
        1,
        s.count(
            BinaryPoint.newSetQuery(
                "bytes",
                new byte[] {0, -7},
                new byte[] {0, 17},
                new byte[] {0, 42},
                new byte[] {0, 97})));
    assertEquals(
        0,
        s.count(
            BinaryPoint.newSetQuery(
                "bytes",
                new byte[] {0, 16},
                new byte[] {0, 20},
                new byte[] {0, 41},
                new byte[] {0, 97})));

    w.close();
    r.close();
    dir.close();
  }

  public void testEmptyPointInSetQuery() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    IndexWriter w = new IndexWriter(dir, iwc);

    Document doc = new Document();
    doc.add(new IntPoint("int", 17));
    doc.add(new LongPoint("long", 17L));
    doc.add(new FloatPoint("float", 17.0f));
    doc.add(new DoublePoint("double", 17.0));
    doc.add(new BinaryPoint("bytes", new byte[] {0, 17}));
    w.addDocument(doc);

    IndexReader r = DirectoryReader.open(w);
    IndexSearcher s = newSearcher(r, false);
    assertEquals(0, s.count(IntPoint.newSetQuery("int")));
    assertEquals(0, s.count(LongPoint.newSetQuery("long")));
    assertEquals(0, s.count(FloatPoint.newSetQuery("float")));
    assertEquals(0, s.count(DoublePoint.newSetQuery("double")));
    assertEquals(0, s.count(BinaryPoint.newSetQuery("bytes")));

    w.close();
    r.close();
    dir.close();
  }

  public void testPointInSetQueryManyEqualValues() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    IndexWriter w = new IndexWriter(dir, iwc);

    int zeroCount = 0;
    for (int i = 0; i < 10000; i++) {
      int x = random().nextInt(2);
      if (x == 0) {
        zeroCount++;
      }
      Document doc = new Document();
      doc.add(new IntPoint("int", x));
      doc.add(new LongPoint("long", (long) x));
      doc.add(new FloatPoint("float", (float) x));
      doc.add(new DoublePoint("double", (double) x));
      doc.add(new BinaryPoint("bytes", new byte[] {(byte) x}));
      w.addDocument(doc);
    }

    IndexReader r = DirectoryReader.open(w);
    IndexSearcher s = newSearcher(r, false);
    assertEquals(zeroCount, s.count(IntPoint.newSetQuery("int", 0)));
    assertEquals(zeroCount, s.count(IntPoint.newSetQuery("int", 0, -7)));
    assertEquals(zeroCount, s.count(IntPoint.newSetQuery("int", 7, 0)));
    assertEquals(10000 - zeroCount, s.count(IntPoint.newSetQuery("int", 1)));
    assertEquals(0, s.count(IntPoint.newSetQuery("int", 2)));

    assertEquals(zeroCount, s.count(LongPoint.newSetQuery("long", 0)));
    assertEquals(zeroCount, s.count(LongPoint.newSetQuery("long", 0, -7)));
    assertEquals(zeroCount, s.count(LongPoint.newSetQuery("long", 7, 0)));
    assertEquals(10000 - zeroCount, s.count(LongPoint.newSetQuery("long", 1)));
    assertEquals(0, s.count(LongPoint.newSetQuery("long", 2)));

    assertEquals(zeroCount, s.count(FloatPoint.newSetQuery("float", 0)));
    assertEquals(zeroCount, s.count(FloatPoint.newSetQuery("float", 0, -7)));
    assertEquals(zeroCount, s.count(FloatPoint.newSetQuery("float", 7, 0)));
    assertEquals(10000 - zeroCount, s.count(FloatPoint.newSetQuery("float", 1)));
    assertEquals(0, s.count(FloatPoint.newSetQuery("float", 2)));

    assertEquals(zeroCount, s.count(DoublePoint.newSetQuery("double", 0)));
    assertEquals(zeroCount, s.count(DoublePoint.newSetQuery("double", 0, -7)));
    assertEquals(zeroCount, s.count(DoublePoint.newSetQuery("double", 7, 0)));
    assertEquals(10000 - zeroCount, s.count(DoublePoint.newSetQuery("double", 1)));
    assertEquals(0, s.count(DoublePoint.newSetQuery("double", 2)));

    assertEquals(zeroCount, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {0})));
    assertEquals(
        zeroCount, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {0}, new byte[] {-7})));
    assertEquals(
        zeroCount, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {7}, new byte[] {0})));
    assertEquals(10000 - zeroCount, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {1})));
    assertEquals(0, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {2})));

    w.close();
    r.close();
    dir.close();
  }

  public void testPointRangeQueryManyEqualValues() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    IndexWriter w = new IndexWriter(dir, iwc);

    int cardinality = TestUtil.nextInt(random(), 2, 20);

    int zeroCount = 0;
    int oneCount = 0;
    for (int i = 0; i < 10000; i++) {
      int x = random().nextInt(cardinality);
      if (x == 0) {
        zeroCount++;
      } else if (x == 1) {
        oneCount++;
      }
      Document doc = new Document();
      doc.add(new IntPoint("int", x));
      doc.add(new LongPoint("long", (long) x));
      doc.add(new FloatPoint("float", (float) x));
      doc.add(new DoublePoint("double", (double) x));
      doc.add(new BinaryPoint("bytes", new byte[] {(byte) x}));
      w.addDocument(doc);
    }

    IndexReader r = DirectoryReader.open(w);
    IndexSearcher s = newSearcher(r, false);

    assertEquals(zeroCount, s.count(IntPoint.newRangeQuery("int", 0, 0)));
    assertEquals(oneCount, s.count(IntPoint.newRangeQuery("int", 1, 1)));
    assertEquals(zeroCount + oneCount, s.count(IntPoint.newRangeQuery("int", 0, 1)));
    assertEquals(
        10000 - zeroCount - oneCount, s.count(IntPoint.newRangeQuery("int", 2, cardinality)));

    assertEquals(zeroCount, s.count(LongPoint.newRangeQuery("long", 0, 0)));
    assertEquals(oneCount, s.count(LongPoint.newRangeQuery("long", 1, 1)));
    assertEquals(zeroCount + oneCount, s.count(LongPoint.newRangeQuery("long", 0, 1)));
    assertEquals(
        10000 - zeroCount - oneCount, s.count(LongPoint.newRangeQuery("long", 2, cardinality)));

    assertEquals(zeroCount, s.count(FloatPoint.newRangeQuery("float", 0, 0)));
    assertEquals(oneCount, s.count(FloatPoint.newRangeQuery("float", 1, 1)));
    assertEquals(zeroCount + oneCount, s.count(FloatPoint.newRangeQuery("float", 0, 1)));
    assertEquals(
        10000 - zeroCount - oneCount, s.count(FloatPoint.newRangeQuery("float", 2, cardinality)));

    assertEquals(zeroCount, s.count(DoublePoint.newRangeQuery("double", 0, 0)));
    assertEquals(oneCount, s.count(DoublePoint.newRangeQuery("double", 1, 1)));
    assertEquals(zeroCount + oneCount, s.count(DoublePoint.newRangeQuery("double", 0, 1)));
    assertEquals(
        10000 - zeroCount - oneCount, s.count(DoublePoint.newRangeQuery("double", 2, cardinality)));

    assertEquals(
        zeroCount, s.count(BinaryPoint.newRangeQuery("bytes", new byte[] {0}, new byte[] {0})));
    assertEquals(
        oneCount, s.count(BinaryPoint.newRangeQuery("bytes", new byte[] {1}, new byte[] {1})));
    assertEquals(
        zeroCount + oneCount,
        s.count(BinaryPoint.newRangeQuery("bytes", new byte[] {0}, new byte[] {1})));
    assertEquals(
        10000 - zeroCount - oneCount,
        s.count(
            BinaryPoint.newRangeQuery("bytes", new byte[] {2}, new byte[] {(byte) cardinality})));

    w.close();
    r.close();
    dir.close();
  }

  public void testPointInSetQueryManyEqualValuesWithBigGap() throws Exception {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig();
    iwc.setCodec(getCodec());
    IndexWriter w = new IndexWriter(dir, iwc);

    int zeroCount = 0;
    for (int i = 0; i < 10000; i++) {
      int x = 200 * random().nextInt(2);
      if (x == 0) {
        zeroCount++;
      }
      Document doc = new Document();
      doc.add(new IntPoint("int", x));
      doc.add(new LongPoint("long", (long) x));
      doc.add(new FloatPoint("float", (float) x));
      doc.add(new DoublePoint("double", (double) x));
      doc.add(new BinaryPoint("bytes", new byte[] {(byte) x}));
      w.addDocument(doc);
    }

    IndexReader r = DirectoryReader.open(w);
    IndexSearcher s = newSearcher(r, false);
    assertEquals(zeroCount, s.count(IntPoint.newSetQuery("int", 0)));
    assertEquals(zeroCount, s.count(IntPoint.newSetQuery("int", 0, -7)));
    assertEquals(zeroCount, s.count(IntPoint.newSetQuery("int", 7, 0)));
    assertEquals(10000 - zeroCount, s.count(IntPoint.newSetQuery("int", 200)));
    assertEquals(0, s.count(IntPoint.newSetQuery("int", 2)));

    assertEquals(zeroCount, s.count(LongPoint.newSetQuery("long", 0)));
    assertEquals(zeroCount, s.count(LongPoint.newSetQuery("long", 0, -7)));
    assertEquals(zeroCount, s.count(LongPoint.newSetQuery("long", 7, 0)));
    assertEquals(10000 - zeroCount, s.count(LongPoint.newSetQuery("long", 200)));
    assertEquals(0, s.count(LongPoint.newSetQuery("long", 2)));

    assertEquals(zeroCount, s.count(FloatPoint.newSetQuery("float", 0)));
    assertEquals(zeroCount, s.count(FloatPoint.newSetQuery("float", 0, -7)));
    assertEquals(zeroCount, s.count(FloatPoint.newSetQuery("float", 7, 0)));
    assertEquals(10000 - zeroCount, s.count(FloatPoint.newSetQuery("float", 200)));
    assertEquals(0, s.count(FloatPoint.newSetQuery("float", 2)));

    assertEquals(zeroCount, s.count(DoublePoint.newSetQuery("double", 0)));
    assertEquals(zeroCount, s.count(DoublePoint.newSetQuery("double", 0, -7)));
    assertEquals(zeroCount, s.count(DoublePoint.newSetQuery("double", 7, 0)));
    assertEquals(10000 - zeroCount, s.count(DoublePoint.newSetQuery("double", 200)));
    assertEquals(0, s.count(DoublePoint.newSetQuery("double", 2)));

    assertEquals(zeroCount, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {0})));
    assertEquals(
        zeroCount, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {0}, new byte[] {-7})));
    assertEquals(
        zeroCount, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {7}, new byte[] {0})));
    assertEquals(
        10000 - zeroCount, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {(byte) 200})));
    assertEquals(0, s.count(BinaryPoint.newSetQuery("bytes", new byte[] {2})));

    w.close();
    r.close();
    dir.close();
  }

  public void testInvalidPointInSetQuery() throws Exception {
    IllegalArgumentException expected =
        expectThrows(
            IllegalArgumentException.class,
            () -> {
              new PointInSetQuery(
                  "foo",
                  3,
                  4,
                  new PointInSetQuery.Stream() {
                    @Override
                    public BytesRef next() {
                      return newBytesRef(new byte[3]);
                    }
                  }) {
                @Override
                protected String toString(byte[] point) {
                  return Arrays.toString(point);
                }
              };
            });
    assertEquals(
        "packed point length should be 12 but got 3; field=\"foo\" numDims=3 bytesPerDim=4",
        expected.getMessage());
  }

  public void testInvalidPointInSetBinaryQuery() throws Exception {
    IllegalArgumentException expected =
        expectThrows(
            IllegalArgumentException.class,
            () -> {
              BinaryPoint.newSetQuery("bytes", new byte[] {2}, new byte[0]);
            });
    assertEquals("all byte[] must be the same length, but saw 1 and 0", expected.getMessage());
  }

  public void testPointInSetQueryToString() throws Exception {
    // int
    assertEquals("int:{-42 18}", IntPoint.newSetQuery("int", -42, 18).toString());

    // long
    assertEquals("long:{-42 18}", LongPoint.newSetQuery("long", -42L, 18L).toString());

    // float
    assertEquals("float:{-42.0 18.0}", FloatPoint.newSetQuery("float", -42.0f, 18.0f).toString());

    // double
    assertEquals("double:{-42.0 18.0}", DoublePoint.newSetQuery("double", -42.0, 18.0).toString());

    // binary
    assertEquals(
        "bytes:{[12] [2a]}",
        BinaryPoint.newSetQuery("bytes", new byte[] {42}, new byte[] {18}).toString());
  }

  public void testPointInSetQueryGetPackedPoints() throws Exception {
    int numValues = randomIntValue(1, 32);
    List<byte[]> values = new ArrayList<>(numValues);
    for (byte i = 0; i < numValues; i++) {
      values.add(new byte[] {i});
    }

    PointInSetQuery query =
        (PointInSetQuery) BinaryPoint.newSetQuery("field", values.toArray(new byte[][] {}));
    Collection<byte[]> packedPoints = query.getPackedPoints();
    assertEquals(numValues, packedPoints.size());
    Iterator<byte[]> iterator = packedPoints.iterator();
    for (byte[] expectedValue : values) {
      assertArrayEquals(expectedValue, iterator.next());
    }
    expectThrows(NoSuchElementException.class, () -> iterator.next());
    assertFalse(iterator.hasNext());
  }

  public void testRangeOptimizesIfAllPointsMatch() throws IOException {
    final int numDims = TestUtil.nextInt(random(), 1, 3);
    Directory dir = newDirectory();
    RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    Document doc = new Document();
    int[] value = new int[numDims];
    for (int i = 0; i < numDims; ++i) {
      value[i] = TestUtil.nextInt(random(), 1, 10);
    }
    doc.add(new IntPoint("point", value));
    w.addDocument(doc);
    IndexReader reader = w.getReader();
    IndexSearcher searcher = new IndexSearcher(reader);
    searcher.setQueryCache(null);
    int[] lowerBound = new int[numDims];
    int[] upperBound = new int[numDims];
    for (int i = 0; i < numDims; ++i) {
      lowerBound[i] = value[i] - random().nextInt(1);
      upperBound[i] = value[i] + random().nextInt(1);
    }
    Query query = IntPoint.newRangeQuery("point", lowerBound, upperBound);
    Weight weight = searcher.createWeight(query, ScoreMode.COMPLETE_NO_SCORES, 1);
    Scorer scorer = weight.scorer(searcher.getIndexReader().leaves().get(0));
    assertEquals(DocIdSetIterator.all(1).getClass(), scorer.iterator().getClass());

    // When not all documents in the query have a value, the optimization is not applicable
    reader.close();
    w.addDocument(new Document());
    w.forceMerge(1);
    reader = w.getReader();
    searcher = new IndexSearcher(reader);
    searcher.setQueryCache(null);
    weight = searcher.createWeight(query, ScoreMode.COMPLETE_NO_SCORES, 1);
    scorer = weight.scorer(searcher.getIndexReader().leaves().get(0));
    assertNotEquals(DocIdSetIterator.all(1).getClass(), scorer.iterator().getClass());

    reader.close();
    w.close();
    dir.close();
  }

  public void testPointRangeWeightCount() throws IOException {
    // the optimization for Weight#count kicks in only when the number of dimensions is 1
    Directory dir = newDirectory();
    RandomIndexWriter w = new RandomIndexWriter(random(), dir);

    int numPoints = random().nextInt(1, 10);
    int[] points = new int[numPoints];

    int numQueries = random().nextInt(1, 10);
    int[] lowerBound = new int[numQueries];
    int[] upperBound = new int[numQueries];
    int[] expectedCount = new int[numQueries];

    for (int i = 0; i < numQueries; i++) {
      // generate random queries
      lowerBound[i] = random().nextInt(1, 10);
      // allow malformed ranges where upperBound could be less than lowerBound
      upperBound[i] = random().nextInt(1, 10);
    }

    for (int i = 0; i < numPoints; i++) {
      // generate random 1D points
      points[i] = random().nextInt(1, 10);
      if (random().nextBoolean()) {
        // the doc may have at-most 1 point
        Document doc = new Document();
        doc.add(new IntPoint("point", points[i]));
        w.addDocument(doc);
        for (int j = 0; j < numQueries; j++) {
          // calculate the number of points that lie within the query range
          if (lowerBound[j] <= points[i] && points[i] <= upperBound[j]) {
            expectedCount[j]++;
          }
        }
      }
    }
    w.commit();
    w.forceMerge(1);

    IndexReader reader = w.getReader();
    IndexSearcher searcher = new IndexSearcher(reader);
    if (searcher.leafContexts.isEmpty() == false) { // we need at least 1 leaf in the segment
      for (int i = 0; i < numQueries; i++) {
        Query query = IntPoint.newRangeQuery("point", lowerBound[i], upperBound[i]);
        Weight weight = searcher.createWeight(query, ScoreMode.COMPLETE_NO_SCORES, 1);
        assertEquals(expectedCount[i], weight.count(searcher.leafContexts.get(0)));
      }
    }

    reader.close();
    w.close();
    dir.close();
  }

  public void testPointRangeEquals() {
    Query q1, q2;

    q1 = IntPoint.newRangeQuery("a", 0, 1000);
    q2 = IntPoint.newRangeQuery("a", 0, 1000);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    assertFalse(q1.equals(IntPoint.newRangeQuery("a", 1, 1000)));
    assertFalse(q1.equals(IntPoint.newRangeQuery("b", 0, 1000)));

    q1 = LongPoint.newRangeQuery("a", 0, 1000);
    q2 = LongPoint.newRangeQuery("a", 0, 1000);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    assertFalse(q1.equals(LongPoint.newRangeQuery("a", 1, 1000)));

    q1 = FloatPoint.newRangeQuery("a", 0, 1000);
    q2 = FloatPoint.newRangeQuery("a", 0, 1000);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    assertFalse(q1.equals(FloatPoint.newRangeQuery("a", 1, 1000)));

    q1 = DoublePoint.newRangeQuery("a", 0, 1000);
    q2 = DoublePoint.newRangeQuery("a", 0, 1000);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    assertFalse(q1.equals(DoublePoint.newRangeQuery("a", 1, 1000)));

    byte[] zeros = new byte[5];
    byte[] ones = new byte[5];
    Arrays.fill(ones, (byte) 0xff);
    q1 = BinaryPoint.newRangeQuery("a", new byte[][] {zeros}, new byte[][] {ones});
    q2 = BinaryPoint.newRangeQuery("a", new byte[][] {zeros}, new byte[][] {ones});
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    byte[] other = ones.clone();
    other[2] = (byte) 5;
    assertFalse(
        q1.equals(BinaryPoint.newRangeQuery("a", new byte[][] {zeros}, new byte[][] {other})));
  }

  public void testPointExactEquals() {
    Query q1, q2;

    q1 = IntPoint.newExactQuery("a", 1000);
    q2 = IntPoint.newExactQuery("a", 1000);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    assertFalse(q1.equals(IntPoint.newExactQuery("a", 1)));
    assertFalse(q1.equals(IntPoint.newExactQuery("b", 1000)));

    assertTrue(q1 instanceof PointRangeQuery && q2 instanceof PointRangeQuery);
    PointRangeQuery pq1 = (PointRangeQuery) q1;
    PointRangeQuery pq2 = (PointRangeQuery) q2;

    assertTrue(Arrays.equals(pq1.getLowerPoint(), pq2.getLowerPoint()));
    assertTrue(Arrays.equals(pq1.getUpperPoint(), pq2.getUpperPoint()));

    q1 = LongPoint.newExactQuery("a", 1000);
    q2 = LongPoint.newExactQuery("a", 1000);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    assertFalse(q1.equals(LongPoint.newExactQuery("a", 1)));

    assertTrue(q1 instanceof PointRangeQuery && q2 instanceof PointRangeQuery);
    pq1 = (PointRangeQuery) q1;
    pq2 = (PointRangeQuery) q2;

    assertTrue(Arrays.equals(pq1.getLowerPoint(), pq2.getLowerPoint()));
    assertTrue(Arrays.equals(pq1.getUpperPoint(), pq2.getUpperPoint()));

    q1 = FloatPoint.newExactQuery("a", 1000);
    q2 = FloatPoint.newExactQuery("a", 1000);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    assertFalse(q1.equals(FloatPoint.newExactQuery("a", 1)));

    assertTrue(q1 instanceof PointRangeQuery && q2 instanceof PointRangeQuery);
    pq1 = (PointRangeQuery) q1;
    pq2 = (PointRangeQuery) q2;

    assertTrue(Arrays.equals(pq1.getLowerPoint(), pq2.getLowerPoint()));
    assertTrue(Arrays.equals(pq1.getUpperPoint(), pq2.getUpperPoint()));

    q1 = DoublePoint.newExactQuery("a", 1000);
    q2 = DoublePoint.newExactQuery("a", 1000);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    assertFalse(q1.equals(DoublePoint.newExactQuery("a", 1)));

    assertTrue(q1 instanceof PointRangeQuery && q2 instanceof PointRangeQuery);
    pq1 = (PointRangeQuery) q1;
    pq2 = (PointRangeQuery) q2;

    assertTrue(Arrays.equals(pq1.getLowerPoint(), pq2.getLowerPoint()));
    assertTrue(Arrays.equals(pq1.getUpperPoint(), pq2.getUpperPoint()));

    byte[] ones = new byte[5];
    Arrays.fill(ones, (byte) 0xff);
    q1 = BinaryPoint.newExactQuery("a", ones);
    q2 = BinaryPoint.newExactQuery("a", ones);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    byte[] other = ones.clone();
    other[2] = (byte) 5;
    assertFalse(q1.equals(BinaryPoint.newExactQuery("a", other)));

    assertTrue(q1 instanceof PointRangeQuery && q2 instanceof PointRangeQuery);
    pq1 = (PointRangeQuery) q1;
    pq2 = (PointRangeQuery) q2;

    assertTrue(Arrays.equals(pq1.getLowerPoint(), pq2.getLowerPoint()));
    assertTrue(Arrays.equals(pq1.getUpperPoint(), pq2.getUpperPoint()));
  }

  public void testPointInSetEquals() {
    Query q1, q2;
    q1 = IntPoint.newSetQuery("a", 0, 1000, 17);
    q2 = IntPoint.newSetQuery("a", 17, 0, 1000);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    assertFalse(q1.equals(IntPoint.newSetQuery("a", 1, 17, 1000)));
    assertFalse(q1.equals(IntPoint.newSetQuery("b", 0, 1000, 17)));

    q1 = LongPoint.newSetQuery("a", 0, 1000, 17);
    q2 = LongPoint.newSetQuery("a", 17, 0, 1000);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    assertFalse(q1.equals(LongPoint.newSetQuery("a", 1, 17, 1000)));

    q1 = FloatPoint.newSetQuery("a", 0, 1000, 17);
    q2 = FloatPoint.newSetQuery("a", 17, 0, 1000);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    assertFalse(q1.equals(FloatPoint.newSetQuery("a", 1, 17, 1000)));

    q1 = DoublePoint.newSetQuery("a", 0, 1000, 17);
    q2 = DoublePoint.newSetQuery("a", 17, 0, 1000);
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    assertFalse(q1.equals(DoublePoint.newSetQuery("a", 1, 17, 1000)));

    byte[] zeros = new byte[5];
    byte[] ones = new byte[5];
    Arrays.fill(ones, (byte) 0xff);
    q1 = BinaryPoint.newSetQuery("a", new byte[][] {zeros, ones});
    q2 = BinaryPoint.newSetQuery("a", new byte[][] {zeros, ones});
    assertEquals(q1, q2);
    assertEquals(q1.hashCode(), q2.hashCode());
    byte[] other = ones.clone();
    other[2] = (byte) 5;
    assertFalse(q1.equals(BinaryPoint.newSetQuery("a", new byte[][] {zeros, other})));
  }

  public void testInvalidPointLength() {
    IllegalArgumentException e =
        expectThrows(
            IllegalArgumentException.class,
            () -> {
              new PointRangeQuery("field", new byte[4], new byte[8], 1) {
                @Override
                protected String toString(int dimension, byte[] value) {
                  return "foo";
                }
              };
            });
    assertEquals("lowerPoint has length=4 but upperPoint has different length=8", e.getMessage());
  }

  public void testNextUp() {
    assertTrue(Double.compare(0d, DoublePoint.nextUp(-0d)) == 0);
    assertTrue(Double.compare(Double.MIN_VALUE, DoublePoint.nextUp(0d)) == 0);
    assertTrue(Double.compare(Double.POSITIVE_INFINITY, DoublePoint.nextUp(Double.MAX_VALUE)) == 0);
    assertTrue(
        Double.compare(Double.POSITIVE_INFINITY, DoublePoint.nextUp(Double.POSITIVE_INFINITY))
            == 0);
    assertTrue(
        Double.compare(-Double.MAX_VALUE, DoublePoint.nextUp(Double.NEGATIVE_INFINITY)) == 0);

    assertTrue(Float.compare(0f, FloatPoint.nextUp(-0f)) == 0);
    assertTrue(Float.compare(Float.MIN_VALUE, FloatPoint.nextUp(0f)) == 0);
    assertTrue(Float.compare(Float.POSITIVE_INFINITY, FloatPoint.nextUp(Float.MAX_VALUE)) == 0);
    assertTrue(
        Float.compare(Float.POSITIVE_INFINITY, FloatPoint.nextUp(Float.POSITIVE_INFINITY)) == 0);
    assertTrue(Float.compare(-Float.MAX_VALUE, FloatPoint.nextUp(Float.NEGATIVE_INFINITY)) == 0);
  }

  public void testNextDown() {
    assertTrue(Double.compare(-0d, DoublePoint.nextDown(0d)) == 0);
    assertTrue(Double.compare(-Double.MIN_VALUE, DoublePoint.nextDown(-0d)) == 0);
    assertTrue(
        Double.compare(Double.NEGATIVE_INFINITY, DoublePoint.nextDown(-Double.MAX_VALUE)) == 0);
    assertTrue(
        Double.compare(Double.NEGATIVE_INFINITY, DoublePoint.nextDown(Double.NEGATIVE_INFINITY))
            == 0);
    assertTrue(
        Double.compare(Double.MAX_VALUE, DoublePoint.nextDown(Double.POSITIVE_INFINITY)) == 0);

    assertTrue(Float.compare(-0f, FloatPoint.nextDown(0f)) == 0);
    assertTrue(Float.compare(-Float.MIN_VALUE, FloatPoint.nextDown(-0f)) == 0);
    assertTrue(Float.compare(Float.NEGATIVE_INFINITY, FloatPoint.nextDown(-Float.MAX_VALUE)) == 0);
    assertTrue(
        Float.compare(Float.NEGATIVE_INFINITY, FloatPoint.nextDown(Float.NEGATIVE_INFINITY)) == 0);
    assertTrue(Float.compare(Float.MAX_VALUE, FloatPoint.nextDown(Float.POSITIVE_INFINITY)) == 0);
  }

  @Nightly
  public void testInversePointRange() throws IOException {
    Directory dir = newDirectory();
    IndexWriter w = new IndexWriter(dir, newIndexWriterConfig());
    final int numDims = TestUtil.nextInt(random(), 1, 3);
    final int numDocs =
        atLeast(
            10
                * BKDConfig
                    .DEFAULT_MAX_POINTS_IN_LEAF_NODE); // we need multiple leaves to enable this
    // optimization
    for (int i = 0; i < numDocs; ++i) {
      Document doc = new Document();
      int[] values = new int[numDims];
      Arrays.fill(values, i);
      doc.add(new IntPoint("f", values));
      w.addDocument(doc);
    }
    w.forceMerge(1);
    IndexReader r = DirectoryReader.open(w);
    w.close();

    IndexSearcher searcher = newSearcher(r);
    int[] low = new int[numDims];
    int[] high = new int[numDims];
    Arrays.fill(high, numDocs - 2);
    assertEquals(high[0] - low[0] + 1, searcher.count(IntPoint.newRangeQuery("f", low, high)));
    Arrays.fill(low, 1);
    assertEquals(high[0] - low[0] + 1, searcher.count(IntPoint.newRangeQuery("f", low, high)));
    Arrays.fill(high, numDocs - 1);
    assertEquals(high[0] - low[0] + 1, searcher.count(IntPoint.newRangeQuery("f", low, high)));
    Arrays.fill(low, BKDConfig.DEFAULT_MAX_POINTS_IN_LEAF_NODE + 1);
    assertEquals(high[0] - low[0] + 1, searcher.count(IntPoint.newRangeQuery("f", low, high)));
    Arrays.fill(high, numDocs - BKDConfig.DEFAULT_MAX_POINTS_IN_LEAF_NODE);
    assertEquals(high[0] - low[0] + 1, searcher.count(IntPoint.newRangeQuery("f", low, high)));

    r.close();
    dir.close();
  }

  public void testRangeQueryOptimizesRewrites() throws IOException {
    Directory dir = newDirectory();
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, newIndexWriterConfig());

    int numDims = randomIntValue(1, PointValues.MAX_INDEX_DIMENSIONS);
    int[] point = new int[numDims];
    int[] lower = new int[numDims];
    int[] upper = new int[numDims];

    for (int i = 0; i < numDims; i++) {
      point[i] = randomIntValue(1, 10);
      lower[i] = point[i] - randomIntValue(0, 5);
      upper[i] = point[i] + randomIntValue(0, 5);
    }

    // Should rewrite to match all docs query if fully contained
    w.addDocument(
        List.of(new IntPoint("field", point), new SortedNumericDocValuesField("field", 1)));

    IndexReader reader = w.getReader();
    IndexSearcher searcher = new IndexSearcher(reader);

    Query query = IntPoint.newRangeQuery("field", lower, upper);
    Query rewritten = searcher.rewrite(query);
    assertTrue(
        "Expected MatchAllDocsQuery, but got [" + rewritten.getClass().getName() + "]",
        rewritten instanceof MatchAllDocsQuery);
    assertEquals(1, searcher.count(query));

    // Should rewrite to FieldExistsQuery if fully contained but not all docs have values
    w.addDocument(new Document());
    w.forceMerge(1);

    reader.close();
    reader = w.getReader();
    searcher = new IndexSearcher(reader);
    rewritten = searcher.rewrite(query);
    assertTrue(
        "Expected FieldExistsQuery, but got [" + rewritten.getClass().getName() + "]",
        rewritten instanceof FieldExistsQuery);
    assertEquals(1, searcher.count(query));

    // Should fallback to MatchNoDocsQuery if no docs have values
    for (int i = 0; i < numDims; i++) {
      lower[i] = point[i] - 3;
      upper[i] = point[i] - 2;
    }

    query = IntPoint.newRangeQuery("field", lower, upper);
    rewritten = searcher.rewrite(query);
    assertTrue(
        "Expected MatchNoDocsQuery, but got [" + rewritten.getClass().getName() + "]",
        rewritten instanceof MatchNoDocsQuery);
    assertEquals(0, searcher.count(query));

    reader.close();
    w.close();
    dir.close();
  }

  public void testRangeQuerySkipsNonMatchingSegments() throws IOException {
    Directory dir = newDirectory();
    IndexWriter w = new IndexWriter(dir, newIndexWriterConfig());
    Document doc = new Document();
    doc.add(new IntPoint("field", 2));
    doc.add(new IntPoint("field2d", 1, 3));
    w.addDocument(doc);

    DirectoryReader reader = DirectoryReader.open(w);
    IndexSearcher searcher = newSearcher(reader);

    Query query = IntPoint.newRangeQuery("field", 0, 1);
    Weight weight =
        searcher.createWeight(searcher.rewrite(query), ScoreMode.COMPLETE_NO_SCORES, 1f);
    assertNull(weight.scorerSupplier(reader.leaves().get(0)));

    query = IntPoint.newRangeQuery("field", 3, 4);
    weight = searcher.createWeight(searcher.rewrite(query), ScoreMode.COMPLETE_NO_SCORES, 1f);
    assertNull(weight.scorerSupplier(reader.leaves().get(0)));

    query = IntPoint.newRangeQuery("field2d", new int[] {0, 0}, new int[] {2, 2});
    weight = searcher.createWeight(searcher.rewrite(query), ScoreMode.COMPLETE_NO_SCORES, 1f);
    assertNull(weight.scorerSupplier(reader.leaves().get(0)));

    query = IntPoint.newRangeQuery("field2d", new int[] {2, 2}, new int[] {4, 4});
    weight = searcher.createWeight(searcher.rewrite(query), ScoreMode.COMPLETE_NO_SCORES, 1f);
    assertNull(weight.scorerSupplier(reader.leaves().get(0)));

    reader.close();
    w.close();
    dir.close();
  }

  public void testPointInSetQuerySkipsNonMatchingSegments() throws IOException {
    Directory dir = newDirectory();
    IndexWriter w = new IndexWriter(dir, newIndexWriterConfig());
    Document doc = new Document();
    doc.add(new IntPoint("field", 10));
    doc.add(new IntPoint("field2d", 10, 10));
    w.addDocument(doc);

    DirectoryReader reader = DirectoryReader.open(w);
    IndexSearcher searcher = newSearcher(reader);

    Query query = IntPoint.newSetQuery("field", 1, 3, 5);
    Weight weight =
        searcher.createWeight(searcher.rewrite(query), ScoreMode.COMPLETE_NO_SCORES, 1f);
    assertNull(weight.scorerSupplier(reader.leaves().get(0)));

    query = IntPoint.newSetQuery("field", 11, 13, 15);
    weight = searcher.createWeight(searcher.rewrite(query), ScoreMode.COMPLETE_NO_SCORES, 1f);
    assertNull(weight.scorerSupplier(reader.leaves().get(0)));

    query = IntPoint.newSetQuery("field", 5, 10, 15);
    weight = searcher.createWeight(searcher.rewrite(query), ScoreMode.COMPLETE_NO_SCORES, 1f);
    assertNotNull(weight.scorerSupplier(reader.leaves().get(0)));

    query = newMultiDimIntSetQuery("field2d", 2, 5, 5);
    weight = searcher.createWeight(searcher.rewrite(query), ScoreMode.COMPLETE_NO_SCORES, 1f);
    assertNull(weight.scorerSupplier(reader.leaves().get(0)));

    query = newMultiDimIntSetQuery("field2d", 2, 15, 15);
    weight = searcher.createWeight(searcher.rewrite(query), ScoreMode.COMPLETE_NO_SCORES, 1f);
    assertNull(weight.scorerSupplier(reader.leaves().get(0)));

    query = newMultiDimIntSetQuery("field2d", 2, 10, 10);
    weight = searcher.createWeight(searcher.rewrite(query), ScoreMode.COMPLETE_NO_SCORES, 1f);
    assertNotNull(weight.scorerSupplier(reader.leaves().get(0)));

    reader.close();
    w.close();
    dir.close();
  }

  public void testOutOfOrderValuesInPointInSetQuery() throws Exception {
    IllegalArgumentException expected =
        expectThrows(
            IllegalArgumentException.class,
            () -> {
              new PointInSetQuery(
                  "foo",
                  1,
                  1,
                  new PointInSetQuery.Stream() {
                    private final BytesRef[] values = {
                      newBytesRef(new byte[] {2}), newBytesRef(new byte[] {1}) // out of order
                    };
                    int index = 0;

                    @Override
                    public BytesRef next() {
                      return index < values.length ? values[index++] : null;
                    }
                  }) {
                @Override
                protected String toString(byte[] point) {
                  return Arrays.toString(point);
                }
              };
            });
    assertEquals("values are out of order: saw [2] before [1]", expected.getMessage());
  }
}
